Fetal Medial Habenula Transplants: Innervation of the Rat Interpeduncular Nucleus

The effects of donor age and site of placement on the survival of fetal medial habenula (MH) transplants into adult rats hosts were examined. The innervation of the interpeduncular nucleus (IPN) in such cases was also examined. Explants of MH consisting of the medial-dorsal lip of the third ventricle were held in vitro for 1—2 days. Colloidal gold conjugated to wheat germ agglutinin was added for the last 18 hours to label the cells. Four of 16 cases with E19 derived transplants contained donor neurons. Markedly larger transplants were present in 95% of 20 cases with E16 derived transplants. Sites in the ventral midbrain were successful, while limited or no survival occurred at sites more remote from IPN. Retrograde labeling of transplant neurons was present in each case studied with HRP injection into host IPN. Colloidal gold-labeled macrophages, some oriented capillaries and GFAP-positive processes marked the donor-host interface. In EM the interface was evident only by the difference in tissue elements in the transplant versus host. Numerous synapses of Gray types I and II were present in the transplant. Excellent survival of MH neurons, donor/host interfaces, innervation of IPN by the transplant and fine structure in and around the transplants, all suggest that such preparations are suitable for further experimental analysis of the habenulo-interpeduncular system

Repair of central nervous system lesions by transplantation of olfactory ensheathing cells

Clinical conditions affecting the central nervous system (CNS) fall into two main categories – degenerative conditions in which nerve cells are lost (Alzheimer’s, Parkinson’s, Huntington’s disease, etc.), and traumatic insults which sever nerve fibers but leave their cell bodies and initial parts of the severed axons intact (spinal cord injury, cerebrovascular accidents, or tumors affecting fiber tracts). After injuries of this second type, the survival of the nerve cell bodies and the local sprouting at the severed ends of the proximal stumps of the axons raise the tantalizing possibility of one day learning how to induce these severed fibers to regenerate to their original targets and restore lost functions. This chapter gives an overview of current research into the strategy of transplantation of olfactory ensheathing cells into axotomizing injuries